CN206717493U - A kind of headstock structure of more spindle processings - Google Patents

Abstract

The utility model discloses a kind of headstock structure of more spindle processings, the multiple machining spindles arranged in arrays including spindle box body and in spindle box body, belt pulley is equipped with the top of each machining spindle, it is additionally provided with some driving belts, each driving belt is set around four belt pulleys in same square matrix, and at least one motor is additionally provided with the top of spindle box body.This headstock structure can be located on multiple machining spindles with row on spindle box body installs identical cutter respectively, the procedure that multiple parts positioned at same row are respectively completed by the machining spindle of same row is processed, and the processing of other processes is completed by the machining spindle of different rows, so as to which the processing of multiple working procedure is completed to workpiece by moving spindle box body successively, error caused by process can effectively be reduced, part processing precision is improved, this utility model is used for lathe headstock construction applications.

Description

A kind of headstock structure of more spindle processings

Technical field

Lathe headstock construction applications are the utility model is related to, more particularly to a kind of main spindle box knot of more spindle processings Structure.

Background technology

During being processed by existing lathe to part, if needing to carry out the processing of multiple operation on part, typically Need to reprocess by tool changing or after carrying out repositioning clamping to part, thus can be brought because of the processing of multiple operation repeatedly Error is produced after clamping, causes part processing precision to be affected.

Utility model content

The purpose of this utility model is that providing a kind of more main shafts that multiple working procedure processing can be completed by clamped one time adds The headstock structure of work.

Technical solution adopted in the utility model is：

A kind of headstock structure of more spindle processings, including spindle box body and in spindle box body it is arranged in arrays Multiple machining spindles, be equipped with belt pulley at the top of each machining spindle, be additionally provided with some driving belts, each driving belt Set around four belt pulleys in same square matrix, at least one electricity is additionally provided with the top of spindle box body Machine.

It is further used as the improvement of technical solutions of the utility model, is provided with 16 machining spindles in spindle box body, ten Six machining spindles are in four rows and often arrange four arrangements, every four four belt pulley outer shrouds in same square matrix Around a driving belt Synchronous Transmission, the side of each driving belt is provided with a belt and tightens up wheel.

The improvement of technical solutions of the utility model is further used as, each belt pulley in four driving belts Top is superimposed with an auxiliary driving wheel, is additionally provided with the ancillary drive belt set around four auxiliary driving wheels, the top of spindle box body Provided with a motor, the output of motor is pivotally connected to a wherein auxiliary driving wheel.

The improvement of technical solutions of the utility model is further used as, the axis of four auxiliary driving wheels is located at same rectangular array Four right-angle positions.

The improvement of technical solutions of the utility model is further used as, the top of spindle box body is provided with four in matrix arrangement Individual motor, the output shaft of each motor are respectively connecting to any belt pulley wherein in a square matrix.

The improvement of technical solutions of the utility model is further used as, is connected with four motors and is additionally provided with four motors of a control The controller of synchronous axial system.

The beneficial effects of the utility model：The headstock structure of this more spindle processing passes through one or more motor driven Multiple machining spindle synchronous axial systems in spindle box body, each machining spindle is arranged in arrays, can be on spindle box body Identical cutter is installed respectively on multiple machining spindles with row, is respectively completed by the machining spindle of same row positioned at same The procedure processing of multiple parts of one row, and the processing of other processes is completed by the machining spindle of different rows, so as to logical Cross and move the processing that spindle box body completes multiple working procedure to workpiece successively, error caused by can effectively reducing process, carry High part processing precision.

Brief description of the drawings

The utility model is described in further detail below in conjunction with the accompanying drawings：

Fig. 1 is the utility model first embodiment overall structure diagram；

Fig. 2 is the utility model second embodiment overall structure diagram.

Embodiment

Reference picture 1, Fig. 2, the utility model are a kind of headstock structure of more spindle processings, including the He of spindle box body 1 Multiple machining spindles 2 arranged in arrays in spindle box body 1, the top of each machining spindle 2 are equipped with belt pulley 3, some driving belts 31 are additionally provided with, each driving belt 31 is set around four belt pulleys 3 in same square matrix Put, the top of spindle box body 1 is additionally provided with least one motor 4.

The headstock structure of this more spindle processing is driven in spindle box body 1 by one or more motor 4 Multiple synchronous axial systems of machining spindle 2, each machining spindle 2 is arranged in arrays, can be located on spindle box body 1 and add with the multiple of row Identical cutter is installed respectively on work main shaft 2, multiple parts positioned at same row are respectively completed by the machining spindle 2 of same row Procedure processing, and other processes are completed by the machining spindle 2 of different rows and processed, so as to by moving main shaft successively Box body 1 completes the processing of multiple working procedure to workpiece, can effectively reduce error caused by process, improves part processing essence Degree.

As the utility model preferred embodiment, 16 machining spindles 2,16 are provided with spindle box body 1 Machining spindle 2 is in four rows and often arranges four arrangements, and every four surround outside four belt pulleys 3 in same square matrix The Synchronous Transmission of one driving belt 31, the side of each driving belt 31 are provided with a belt and tighten up wheel.

Such as Fig. 1, as the utility model preferred embodiment, each belt transmission in four driving belts 31 The top of wheel 3 is superimposed with an auxiliary driving wheel 5, is additionally provided with the ancillary drive belt 51 set around four auxiliary driving wheels 5, spindle box body 1 top is provided with a motor 4, and the output of motor 4 is pivotally connected to a wherein auxiliary driving wheel 5.

As the utility model preferred embodiment, the axis of four auxiliary driving wheels 5 is located at the four of same rectangular array Individual right-angle position.

Such as Fig. 2, as the utility model preferred embodiment, the top of spindle box body 1 is provided with matrix arrangement Four motors 4, the output shaft of each motor 4 are respectively connecting to any belt pulley 3 wherein in a square matrix.

As the utility model preferred embodiment, being connected with four motors 4, it is synchronous to be additionally provided with four motors 4 of a control The controller of rotation.

The main spindle box body can drive 16 machining spindles 2 to rotate by a motor 4, can also be divided by four motors 4 Four machining spindles 2 that Dai Dong be located in same square matrix rotate.

In the setting driven by a motor 4, the rotation of the motor 4 drives four pairs in same rectangular matrix One in drive 5 rotation, and by the setting of ancillary drive belt 51, four synchronous axial systems of auxiliary driving wheel 5 of synchronous drive, four Individual auxiliary driving wheel 5 each drives four machining spindles 2 in same square matrix to rotate, so as to realize positioned at same main shaft 16 synchronous axial systems of machining spindle 2 in box body 1, reach accurate control.

In the setting driven by four motors 4, the rotation of each motor 4 drives four in same square matrix to add The synchronous axial system of work main shaft 2, and the rotating speed of four motors 4 is controlled by controller, is reached synchronous averaging and is rotated with speed, so as to Effectively control the synchronous rotational speed of each machining spindle 2.

Identical cutter can be installed on four machining spindles 2 of same row, when carrying out part processing, by workpiece into Arrange equidistant fixation, the spacing between workpiece sets equal with the spacing setting between each machining spindle 2, and each row's machining spindle 2 is complete Into after the processing of a procedure, transverse shifting spindle box body 1, you can second operation work is completed by second row machining spindle 2 Processing, so as to the processing of multiple working procedure being sequentially completed on multiple parts.

Whole process, can the multiple parts of synchronous processing, and only need by clamped one time position complete, can effectively improve The precision of part processing.

Certainly, the invention is not limited to above-mentioned embodiment, and those skilled in the art are without prejudice to originally Equivalent variations or replacement can be also made on the premise of utility model spirit, these equivalent modifications or replacement are all contained in the application In claim limited range.

Claims (6)

1. A kind of 1. headstock structure of more spindle processings, it is characterised in that：Including spindle box body and positioned at the main spindle box case Multiple machining spindles arranged in arrays in vivo, belt pulley is equipped with the top of each machining spindle, is additionally provided with some Driving belt, each driving belt are set around four belt pulleys in same square matrix, the main spindle box At least one motor is additionally provided with the top of casing.
2. 2. the headstock structure of more spindle processings according to claim 1, it is characterised in that：Set in the spindle box body There are 16 machining spindles, 16 machining spindles are in four rows and often arrange four arrangements, and every four are located at same square square Around a driving belt Synchronous Transmission outside four belt pulleys in battle array, the side of each driving belt is provided with one Belt tightens up wheel.
3. 3. the headstock structure of more spindle processings according to claim 2, it is characterised in that：Positioned at four transmission skins An auxiliary driving wheel is superimposed with above each belt pulley in band, is additionally provided with the secondary biography set around four auxiliary driving wheels Dynamic belt, the top of the spindle box body are provided with a motor, and the output of the motor is pivotally connected to a wherein auxiliary driving wheel.
4. 4. the headstock structure of more spindle processings according to claim 3, it is characterised in that：Four auxiliary driving wheels Axis is located at four right-angle positions of same rectangular array.
5. 5. the headstock structure of more spindle processings according to claim 2, it is characterised in that：The top of the spindle box body Portion is provided with four motors in matrix arrangement, and the output shaft of each motor is respectively connecting to any wherein in a square matrix Belt pulley.
6. 6. the headstock structure of more spindle processings according to claim 5, it is characterised in that：It is connected with four motors It is additionally provided with the controller of four motor synchronous axial systems of control.